Skip to content

An automated reference implementation leveraging AWS Step Functions and AWS Media Services to deploy a scalable fault tolerant Video on demand workflow

License

Notifications You must be signed in to change notification settings

sandimciin/video-on-demand-on-aws

 
 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

41 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Video on Demand on AWS

How to implement a video-on-demand workflow on AWS leveraging AWS Step Functions, AWS Elemental MediaConvert, and AWS Elemental MediaPackage. Source code for Video on Demand on AWS solution.

On this Page

Architecture Overview

Architecture

Deployment

The solution is deployed using a CloudFormation template with a lambda backed custom resource. For details on deploying the solution please see the details on the solution home page: Video on Demand on AWS

Please ensure you test the new template before updating any production deployments.

Workflow Configuration

The workflow configuration is set at deployment and is defined as environment variables for the input-validate lambda function (which is the first step in the ingest process).

Environment Variables:

  • Archive Source: If enabled, the source video file will be tagged for archiving to glacier at the end of the workflow
  • CloudFront: CloudFront domain name, used to generate the playback URLs for the MediaConvert outputs
  • Destination: The name of the destination S3 bucket for all of the MediaConvert outputs
  • FrameCapture: If enabled frame capture is added to the job submitted to MediaConvert
  • InputRotate: Defines how the MediaConvert rotates your video
  • MediaConvert_Template_2160p: The name of the UHD template in MediaConvert
  • MediaConvert_Template_1080p: The name of the HD template in MediaConvert
  • MediaConvert_Template_720p: The name of the SD template in MediaConvert
  • Source: The name of the source S3 bucket
  • WorkflowName: Used to tag all of the MediaConvert encoding jobs
  • acceleratedTranscoding Enabled Accelerated Transocding in MediaConvert. options include ENABLE, DISABLE, PREFERRED. for more detials please see:
  • enableSns Send SNS notifications for the workflow results.
  • enableSqs Send the workflow results to an SQS queue

WorkFlow Triggers

Source Video Option

If deployed with the workflow trigger parameter set to VideoFile, the CloudFormation template will configure S3 event notifications on the source S3 bucket to trigger the workflow whenever a video file (mpg, mp4, m4v, mov, or m2ts) is uploaded.

Source Metadata Option

If deployed with the workflow trigger parameter set to MetadataFile, the S3 notification is configured to trigger the workflow whenever a JSON file is uploaded. This allows different workflow configuration to be defined for each source video processed by the workflow.

Important: The source video file must be uploaded to S3 before the metadata file is uploaded, and the metadata file must be valid JSON with a .json file extension. With source metadata enabled uploading video files to Amazon S3 will not trigger the workflow.

Example JSON metadata file:

{
    "srcVideo": "example.mpg",
    "archiveSource": true,
    "frameCapture": false,
    "jobTemplate": "custom-job-template"
}

The only required field for the metadata file is the srcVideo. The workflow will default to the environment variables settings for the ingest validate lambda function for any settings not defined in the metadata file.

Full list of options:

{
    "srcVideo": "string",
    "archiveSource": string,
    "frameCapture": boolean,
    "srcBucket": "string",
    "destBucket": "string",
    "cloudFront": "string",
    "jobTemplate_2160p": "string",
    "jobTemplate_1080p": "string",
    "jobTemplate_720p": "string",
    "jobTemplate": "custom-job-template",
    "inputRotate": "DEGREE_0|DEGREES_90|DEGREES_180|DEGREES_270|AUTO",
    "captions": {
        "srcFile": "string",
        "fontSize": integer,
        "fontColor": "WHITE|BLACK|YELLOW|RED|GREEN|BLUE"
    }
}

The solution also supports adding additional metadata, such as title, genre, or any other information, you want to store in Amazon DynamoDB.

Encoding Templates

At launch the Solution creates 3 MediaConvert job templates which are used as the default encoding templates for the workflow:

  • MediaConvert_Template_2160p
  • MediaConvert_Template_1080p
  • MediaConvert_Template_720p

By default, the profiler step in the process step function will check the source video height and set the parameter "jobTemplate" to one of the available templates. This variable is then passed to the encoding step which submits a job to Elemental MediaConvert. To customize the encoding templates used by the solution you can either replace the existing templates or you can use the source metadata version of the workflow and define the jobTemplate as part of the source metadata file.

To replace the templates:

  1. Use the system templates or create 3 new templates through the MediaConvert console (see the Elemental MediaConvert documentation for details).
  2. Update the environment variables for the input validate lambda function with the names of the new templates.

To define the job template using metadata:

  1. Launch the solution with source metadata parameter. See Appendix E for more details.
  2. Use the system templates or create a new template through the MediaConvert console (see the Elemental MediaConvert documentation for details).
  3. Add "jobTemplate":"name of the template" to the metadata file, this will overwrite the profiler step in the process Step Functions.

QVBR Mode

AWS MediaConvert Quality-defined Variable Bit-Rate (QVBR) control mode gets the best video quality for a given file size and is recommended for OTT and Video On Demand Content. The solution supports this feature and it will create HLS, MP4 and DASH custom presets with the following QVBR levels and Single Pass HQ encoding:

Resolution MaxBitrate QvbrQualityLevel
2160p 15000Kbps 9
1080p 8500Kbps 8
720p 6000Kbps 8
720p 5000Kbps 8
540p 3500Kbps 7
360p 1500Kbps 7
270p 400Kbps 7

For more detail please see QVBR and MediaConvert.

Accelerated Transcoding

Version 5.1.0 introduces support for accelerated transcoding which is a pro tier feature of AWS Elemental MediaConvert. This feature can be configured when launching the template with one of the following options:

  • ENABLED All files upload will have acceleration enabled. Files that are not supported will not be processed and the workflow will fail
  • PREFERRED All files uploaded will be processed but only supported files will have acceleration enabled, the workflow will not fail.
  • DISABLED No acceleration.

For more detail please see Accelerated Transcoding.

Source code

Node.js 14

  • archive-source: Lambda function to tag the source video in s3 to enable the Glacier lifecycle policy.
  • custom-resource: Lambda backed CloudFormation custom resource to deploy MediaConvert templates configure S3 event notifications.
  • dynamo: Lambda function to Update DynamoDB.
  • encode: Lambda function to submit an encoding job to Elemental MediaConvert.
  • error-handler: Lambda function to handler any errors created by the workflow or MediaConvert.
  • input-validate: Lambda function to parse S3 event notifications and define the workflow parameters.
  • media-package-assets: Lambda function to ingest an asset into MediaPackage-VOD.
  • output-validate: Lambda function to parse MediaConvert CloudWatch Events.
  • profiler: Lambda function used to send publish and/or error notifications.
  • step-functions: Lambda function to trigger AWS Step Functions.

Python 3.8

  • mediainfo: Lambda function to run mediainfo on an S3 signed url.

./source/mediainfo/bin/mediainfo must be made executable before deploying to lambda.

Creating a custom build

The solution can be deployed through the CloudFormation template available on the solution home page: Video on Demand on AWS. To make changes to the solution, download or clone this repo, update the source code and then run the deployment/build-s3-dist.sh script to deploy the updated Lambda code to an Amazon S3 bucket in your account.

Prerequisites:

1. Running unit tests for customization

Run unit tests to make sure added customization passes the tests:

cd ./deployment
chmod +x ./run-unit-tests.sh
./run-unit-tests.sh

2. Create an Amazon S3 Bucket

The CloudFormation template is configured to pull the Lambda deployment packages from Amazon S3 bucket in the region the template is being launched in. Create a bucket in the desired region with the region name appended to the name of the bucket (e.g. for us-east-1 create a bucket named my-bucket-us-east-1).

aws s3 mb s3://my-bucket-us-east-1

3. Build MediaInfo

Build MediaInfo using the following commands on an EC2 instance running an Amazon Linux AMI.

sudo yum update -y
sudo yum groupinstall 'Development Tools' -y
sudo yum install libcurl-devel -y
wget https://mediaarea.net/download/binary/mediainfo/20.09/MediaInfo_CLI_20.09_GNU_FromSource.tar.xz
tar xvf MediaInfo_CLI_20.09_GNU_FromSource.tar.xz
cd MediaInfo_CLI_GNU_FromSource/
./CLI_Compile.sh --with-libcurl

Run these commands to confirm the compilation was successful:

cd MediaInfo/Project/GNU/CLI/
./mediainfo --version

Copy the mediainfo binary into the source/mediainfo/bin directory of your cloned respository.

If you'd like to use a precompiled MediaInfo binary for Lambda built by the MediaArea team, you can download it here. For more information, check out the MediaInfo site.

4. Create the deployment packages

First change directory into the deployment directory. Run the following commands to build the distribution.

chmod +x ./build-s3-dist.sh
./build-s3-dist.sh my-bucket video-on-demand-on-aws version

Notes: The build-s3-dist script expects the bucket name as one of its parameters, and this value should not include the region suffix.

Run this command to ensure that you are an owner of the AWS S3 bucket you are uploading files to.

aws s3api head-bucket --bucket my-bucket-us-east-1 --expected-bucket-owner <YOUR-AWS-ACCOUNT-ID>

Deploy the distributable to the Amazon S3 bucket in your account:


aws s3 sync ./regional-s3-assets/ s3://my-bucket-us-east-1/video-on-demand-on-aws/<version>/ 
aws s3 sync ./global-s3-assets/ s3://my-bucket-us-east-1/video-on-demand-on-aws/<version>/

5. Launch the CloudFormation template.

  • Get the link of the video-on-demand-on-aws.template uploaded to your Amazon S3 bucket.
  • Deploy the Video on Demand to your account by launching a new AWS CloudFormation stack using the link of the video-on-demand-on-aws.template.

Additional Resources

Services

Other Solutions and Demos


Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.

Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at

http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.


This solution collects anonymous operational metrics to help AWS improve the quality of features of the solution. For more information, including how to disable this capability, please see the implementation guide.

About

An automated reference implementation leveraging AWS Step Functions and AWS Media Services to deploy a scalable fault tolerant Video on demand workflow

Resources

License

Code of conduct

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • JavaScript 64.6%
  • TypeScript 27.4%
  • Python 5.2%
  • Shell 2.8%